Post on 19-Jul-2020
Computational Structures in Data Science
Lecture 7Abstract Data Types
UC Berkeley EECSLecturer Michael Ball
http:cs88.orgOctober 21, 2019
Computational Concepts Toolbox• Data type: values, literals,
operations, – e.g., int, float, string
• Expressions, Call expression
• Variables• Assignment Statement• Sequences: tuple, list
– indexing• Data structures• Tuple assignment• Call Expressions• Function Definition
Statement• Conditional Statement
• Iteration: – data-driven (list
comprehension)– control-driven (for
statement)– while statement
• Higher Order Functions– Functions as Values– Functions with functions as
argument– Assignment of function
values• Recursion• Lambda - function valued
expressions
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Announcements
• Midterm Tonight!• Monday 10/21 7-9pm, 155 Dwinelle• 1 page, double-sided handwritten cheat sheet
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Today’s Lecture• Abstract Data Types
– More use of functions!– Value in documentation and clarity
• New Python Data Types– Dictionaries, a really useful too!
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Why ADTs?
• “Self-Documenting”– contact_name(contact)
» Vs contact[0]– “0” may seem clear now, but what about in a week? 3
months? • Change your implementation
– Maybe today it’s just a Python List– Tomorrow: It could be a file on your computer; a database
in web
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Abstract Data Type
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A new Data Type
Internal Representation
External Representation
Constructors
Selectors
Operations
Operations Object
Implementation on thatInternal representation
InterfaceAbstraction Barrier!
Creating Abstractions
• Compound values combine other values together– date: a year, a month, and a day– geographic position: latitude and longitude
• • Data abstraction lets us manipulate compound values as units
• Isolate two parts of any program that uses data: – How data are represented (as parts) – How data are manipulated (as units)
• Data abstraction: A methodology by which functions enforce an abstraction barrier between representation and use
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Reminder: Lists• Lists
– Constructors: » list( … )» [ <exps>,… ] » [<exp> for <var> in <list> [ if <exp> ] ]
– Selectors: <list> [ <index or slice> ]– Operations: in, not in, +, *, len, min, max
» Mutable ones too (but not yet)
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A Small ADT
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def point(x, y): # constructorreturn [x, y]
x = lambda point: point[0] # selectory = lambda point: point[1]
def distance(p1, p2): # Operatorreturn ((x(p2) - x(p1)**2 + (y(p2) -
y(p1))**2) ** 0.5
origin = point(0, 0)my_house = point(5, 5)campus = point(25, 25)distance_to_campus = distance(my_house, campus)
Creating an Abtract Data Type• Constructors & Selectors• Operations
– Express the behavior of objects, invariants, etc– Implemented (abstractly) in terms of Constructors and
Selectors for the object• Representation
– Implement the structure of the object
• An abstraction barrier violation occurs when a part of the program that can use the higher levelfunctions uses lower level ones instead
– At either layer of abstraction
• Abstraction barriers make programs easier to get right, maintain, and modify
– Few changes when representation changes
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Clicker ?: Changing Representations?
Assuming we update our selectors, what are valid representations for our point(x, y) ADT?
Currently point(1, 2) is represented as [1, 2]
• A) [y, x] # [2, 1]• B) “X: ” + str(x) + “ Y: ” + str(y)
# “X: 1 Y: 2”• C) str(x) + “ ” + str(y) # “1 2”• D) All of the above• E) None of the above
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An Abstract Data Type: Key-Value Pair
• Collection of key-Value bindings– Key : Value
• Many real-world examples– Dictionary, Directory, Phone book, Course Schedule,
Facebook Friends, Movie listings, …
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Given some Key, What is the value associated with it?
Key-Value ADT• Constructors
– kv_empty: create an empty KV– kv_add: add a key:value binding to a KV– kv_create: create a KV from a list of key,value tuples
• Selectors– kv_items: list of (key,value) tuple in KV– kv_keys: list of keys in KV– kv_values: list of values in KV
• Operations– kv_len: number of bindings– kv_in: presence of a binding with a key– kv_display: external representation of KV
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A little application
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phone_book_data = [("Christine Strauch", "510-842-9235"),("Frances Catal Buloan", "932-567-3241"),("Jack Chow", "617-547-0923"),("Joy De Rosario", "310-912-6483"),("Casey Casem", "415-432-9292"),("Lydia Lu", "707-341-1254")
]
phone_book = pb_create(phone_book_data)
print("Jack Chows's Number: ", pb_get(phone_book, "Jack Chow"))
print("Area codes")area_codes = list(map(lambda x:x[0:3], pb_numbers(phone_book)))print(area_codes)
A Layered Design Process• Build the application based entirely on the ADT
interface– Operations, Constructors and Selectors
• Build the operations in ADT on Constructors and Selectors
– Not the implementation representation• Build the constructors and selectors on some
concrete representation
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Example 1• KV represented as list of (key, value) pairs
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Dictionaries• Lists, Tuples, Strings, Range• Dictionaries
– Constructors: » dict( <list of 2-tuples> )» dict( <key>=<val>, ...) # like kwargs» { <key exp>:<val exp>, … } » { <key>:<val> for <iteration expression> }
– Selectors: <dict> [ <key> ]» <dict>.keys(), .items(), .values()» <dict>.get(key [, default] )
– Operations: » Key in, not in, len, min, max» <dict>[ <key> ] = <val>
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Dictionary Example
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Clicker ?: Dictionaries
• What is the result of the final expression?
my_dict = { ‘course’: ’CS 88’, semester = ‘Fall’ }my_dict[‘semester’] = ’Spring’
my_dict[‘semester’]
A) ‘Fall’B) ‘Spring’C) Error
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Limitations
• Dictionaries are unordered collections of key-value pairs
• Dictionary keys have two restrictions:– A key of a dictionary cannot be a list or a dictionary (or any
mutable type)– Two keys cannot be equal; There can be at most one value for a
given key
This first restriction is tied to Python's underlying implementation of dictionariesThe second restriction is part of the dictionary abstraction
If you want to associate multiple values with a key, store them all in a sequence value
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Beware
• Built-in data type dict relies on mutation– Clobbers the object, rather than “functional” – creating a new
one
• Throws an errors of key is not present• We will learn about mutation shortly
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Example 3• KV represented as dict
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C.O.R.E concepts
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Compute
Operations
Representation
Evaluation
Perform useful computations treating objects abstractly as whole values and operating on them.
Provide operations on the abstract components that allow ease of use – independent of concrete representation.
Constructors and selectors that provide an abstract interface to a concrete representation
Execution on a computing machine
Abst
ract
Dat
a Ty
pe
Abstraction Barrier
Building Apps over KV ADT
• Construct a table of the friend list for each person
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friend_data = [("Christine Strauch", "Jack Chow"),("Christine Strauch", "Lydia Lu"),("Jack Chow", "Christine Strauch"),("Casey Casem", "Christine Strauch"),("Casey Casem", "Jack Chow"),("Casey Casem", "Frances Catal Buloan"),("Casey Casem", "Joy De Rosario"),("Casey Casem", "Casey Casem"),("Frances Catal Buloan", "Jack Chow"),("Jack Chow", "Frances Catal Buloan"),("Joy De Rosario", "Lydia Lu"),("Joy De Lydia", "Jack Chow")]